EC:3.4.23.15 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.23.15 (renin)
35,795 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The distribution of renin in mouse kidney was examined in immunohistochemical studies by using an antiserum against pure mouse submaxillary renin and the peroxidase-antiperoxidase (PAP) technique. At antibody dilutions from 1:10(4) to 1:10(6), renin was found in high concentrations in the epitheloid cells of the vasa afferentia and, in lower concentrations, in the wall of some of the vasa efferentia. Renin was also detected in most of the interlobular arteries. Mesangial cells and Goormaghtigh cells were always free of specific staining. At high antiserum concentrations (i.e., dilutions from 1:10(2) to 1:10(4)) specific reaction product was also observed in the apical part of proximal tubule cells. This staining may represent filtered and pinocytozed renin.
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PMID:Immunocytochemical localization of renin in mouse kidney. 38 64

1. Highly specific antibodies to human renin were prepared in rabbits and used for the preparation of a renin-free substrate, the direct radioimmunoassay of renin in plasma and kidneys, and the localization of renin with fluoresceinated antibodies. 2. In a patient with a partially infarcted kidney, plasma renin activity was increased, and could be activated by acid. The direct measurement of plasma renin by radioimmunoassay gave identical values before and after acidification. 3. In the ischaemic part of the kidney, renin content was high, both by the enzymatic and the direct method of measurement. It was low in the non-ischaemic part of the kidney. 4. All afferent and some interlobular arteries of the obsolescent glomeruli were stained with fluoresceinated anti-renin antibodies. In the non-ischaemic area, the juxtaglomerular appratus did not stain. 5. Renin can now be measured in human plasma and kidney as an entity, by a specific radioimmunoassay. A direct investigation of this intrarenal hormone is now possible at the renal tissue level.
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PMID:Direct radioimmunoassay and immunocytochemical localization of renin in human kidneys. 39 60

1. The precursor synthesis of renin, the storage form in the kidney and the submaxillary gland, and the molecular nature of the forms in plasma were studied in the mouse. 2. Renin is synthesized as a precursor (pre-prorenin) with a molecular weight of 50,000. 3. Renin is stored in the submaxillary gland and the kidneys as fully active renin with a molecular weight of 40,000. 4. The predominant form of renin in plasma is the active mol. wt. 40,000 form. High-molecular-weight forms of renin (800,000 and 70,000) are also present in plasma. 5. Pure 125I-labelled mol. wt. 40,000 renin binds after a change in the tertiary structure, to the plasma protease inhibitors alpha 2-macroglobulin, inter-alpha-trypsin inhibitor and alpha2-antithrombin. It binds also to lipoprotein and an unidentified plasma protein. No binding was seen to more than 50 other studied plasma proteins. 6. The high-molecular-weight forms of renin in plasma may be complexes of renin with plasma protease inhibitors and lipoprotein.
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PMID:Renin precursor synthesis and renin-binding proteins in the mouse. 39 61

Renin is a hormone secreted by the juxtaglomerular cells of the kidney; it interacts with a plasma protein substrate to produce a decapeptide prohormone angiotensin I. Converting hormone located on vascular endothelium converts the decapeptide to an octapeptide, angiotensin II, which effects vasoconstriction, the secretion of aldosterone by the adrenal cortex, and retention of sodium by the kidney. The biosynthesis and control of renin secretion are not well understood, and the question as to whether renin is synthesized and stored in a larger precursor form is as yet unresolved. Whether or not higher molecular weight or inactive forms of renin in plasma have a role in controlling renin activity or whether they simply represent a degradative pathway for renin is as yet uncertain. The availability of several inhibitors of the renin-angiotensin system has served to define the role of renin both in normal cardiovascular homeostasis and in renovascular hypertension. It appears that renin plays an important role in maintaining blood pressure in the salt- or volume-depleted state and that it is responsible for the initial phases of renovascular hypertension in any model of this disease process. Renin's part in chronic renovascular hypertension depends on whether or not sodium is permitted to accumulate. If sodium intake is restricted or if sodium excretion is unimpaired (such as in two-kidney renovascular hypertension models), renin continues to play a significant role during the chronic phase.
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PMID:The role of renin in the control of the circulation and in hypertensive disease. 39 5

Five hundred and seventy-four ambulatory subjects with blood pressures ranging from 94/58 to 250/145 mm Hg were studied on their usual dietary and sodium intake. Renin, renin substrate, angiotensin II, aldosterone and urinary sodium and potassium were compared with blood pressure to access the contribution of these variables to the blood pressure variance. Our analyses revealed that renin substrate was highly and positively correlated with diastolic blood pressure (r = +0.39; p < 0.00001) but all other components of the renin-aldosterone system exhibited a significant negative correlation with blood pressure. A highly significant relationship between potassium, the renin-aldosterone system and blood pressure was found but no such relationship could be demonstrated for sodium. Subjects with higher blood pressures had lower urinary potassium concentrations and lower potassium/creatine ratios. These findings raised the possibility of a significant pathogenetic relationship between potassium and high blood pressure. Multiple linear regression reveals that influences of the renin-angiotensin-aldosterone system can only account for less than 20% of the variance exhibited by the blood pressure in these subjects.
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PMID:Relation between blood pressure and renin, renin substrate, angiotensin II, aldosterone and urinary sodium and potassium in 574 ambulatory subjects. 39 40

Renin was extracted and purified from human, dog, hog, rat, beef, rabbit and sheep kidneys. The renin "concentration" of these preparations was determined and expressed in international (Goldblatt) units by measuring the pressor effect produced by intravascular injection into normal dogs of a permanent colony. The renin "activity" was determined by bioassay, in the rat, of the angiotensin produced by incubation in vitro with renin substrate prepared from the serum of nephrectomized dogs. The rate of angiotensin formation was proportional to the concentration of renin, independent of the substrate concentration, and rather similar for renin of all seven species (mean rate = 55 x 10(4) ng angiotensin/unit renin/16 hrs). Due to this uniformity, either of the two international reference preparations of renin (human or hog) from the World Health Organization can serve as an internal standard in the assay of reninof each of the seven species, to express their concentration in terms of the international unit. Renin substrate from hog plasma was suitable for the assay of human, dog and hog renin (mean rate = 55 x 10(4)). However, it reacted much more slowly with the renin of rat, beef, rabbit and sheep (mean rate = 9 x 10(4)) and was, therefore, less suitable for their assay.
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PMID:Micromethod for the assay of renin of seven species. 39 36

When plasma aldosterone (PA) was measured in 32 predialysis samples from 18 anephric subjects more than 3 months postnephrectomy, all but two values were subnormal, 16 measurements were undetectable, i.e. below 0.35 ng/100 ml, and PA averaged only 1.7 ng/100 ml +/- 0.5 (SE) in the remaining 16. In contrast, PA averaged 29.7 +/- 5.6 ng/100 ml in 12 dialysis patients with kidneys. Plasma renin activity was undetectable in 15 assays of anephric subjects and averaged 0.5 +/- 0.1 ng/ml/h in the remaining 17. However, these latter measurements appeared to be an artifact caused by the presence of plasma prorenin. Serum potassium fell during dialysis and appeared responsible for the concurrent 75% fall in PA observed in six nephric patients (delta 14 ng/100 ml), and in three anephric patients (delta 3.3 ng/100 ml) with low but measurable PA values. Overt hyperkalemia was required for potassium to stimulate aldosterone into the normal range in anephric subjects. The angiotensin II analog, saralasin, also increased PA slightly in five studies. Renin and PA fell after nephrectomy and increased after transplantation. Decreases and increases in renin always preceded those of aldosterone. Usually it took several weeks for aldosterone to fall to undetectable levels and several days to return to normal levels after renal transplantation. These observations suggest that the baseline plasma level of angiotensin determines both the baseline level of aldosterone secretion and its capacity to respond either to more angiotensin or to other stimuli. In the absence of renin, the adrenal almost loses its capacity to generate aldosterone. The data support the view that the renin system plays a fundamental role in maintaining aldosterone secretion in man.
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PMID:Studies of plasma aldosterone in anephric people: evidence for the fundamental role of the renin system in maintaining aldosterone secretion. 40 Jul 14

Renin was purified from 47 kg of hog kidney to produce enough enzyme for enzymatic and physicochemical characterization. The procedure included extraction at pH 3.5 in the presence of protease inhibitors, two ammonium sulfate precipitations, ion exchange chromatography on Sepharose-hexamethylenediamino-pepstatin gel, gel filtration, and isoelectric focusing. Renin, 2.3 mg, with a specific activity of 1,100 GU/mg of protein was obtained with about 70,000-fold purification and 16% overall recovery. The purity criteria were: (1) a single band on sodium dodecyl sulfate (SDS)-gel electrophoresis, (2) same retardation factor on polyacrylamide gel electrophoresis for renin activity, protein and glycoprotein coloration. Renin was characterized by its stability at--20 degrees C, pH 6.5; its molecular weight on SDS-gel electrophoresis, 36,800; its relative mobility on polyacrylamide gel electrophoresis at pH 7.8; its isoelectric point, 5.15; its amino acid composition, which revealed that renin is a glycoprotein; and its Michaelis constant on tetradecapeptide substrate at pH 6.6, Km = 7.7 X 10(-6) M.
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PMID:Large scale purification of hog renin. Physicochemical characterization. 40 68

Twenty-two patients with essential hypertension were treated for 3 months with pindolol, and blood pressure and plasma renin activity were measured at rest and after stimulation (upright posture stimulation and insulin induced hypoglycaemia stimulation). Beta-receptor blockade produced a significant decrease in systolic and diastolic blood pressure. After treatment with pindolol the plasma renin activity was significantly lower. Under conditions of renin stimulation such as orthostasis and insulin produced hypoglycaemia, plasma renin activity was significantly lower in treated patients. There was no correlation between the fall of plasma renin activity and the decrease of blood pressure. Renin suppression is probably only one of the factors involved in the reduction in the blood pressure in these patients.
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PMID:The effect of pindolol on plasma renin activity in patients with essential hypertension. 41 62

1. The effects of external medium calcium concentration, the ionophore A(23187) and lanthanum on the rate of renin release in vitro were studied with particular emphasis on results obtained from isolated superfused glomeruli of rat kidneys.2. The response to reduction in superfusate calcium concentration from 2 mM was a graded and reversible increase in the rate of renin release. An increase in release was detectable at 0.2 mM calcium; a threefold increase was found 36 min after a change from 2 mM calcium to calcium-free superfusate. A similar relative increase in release resulted from reductions from 0.1 mM to zero calcium, but the absolute amounts of renin released were greater in this latter series. Renin release from kidney cortical slices similarly increased in response to calcium-free incubation medium.3. The effects of A(23187) on renin release were modest. Changing from 2 mM calcium during control periods to calcium-free Ringer with A(23187) added caused an attenuated and more delayed increase in release than the change to calcium-free Ringer without ionophore. This difference in response was abolished when glomeruli were superfused with 0.1 mM calcium during the preceding 1 hr control period. There was no significant difference in renin release from glomeruli exposed to calcium-free EGTA-Ringer with and without A(23187) in the 2 mM calcium series; in the 0.1 mM calcium series the increase in release following a shift to calcium-free EGTA-containing superfusate with A(23187) added was significantly greater than in the absence of the ionophore.4. Addition of lanthanum (1 or 0.05 mM) to calcium-containing as well as calcium-free superfusate resulted in a significant depression of renin release. Subsequent removal of the lanthanum did not restore the rate of release unless EGTA was added; in the latter case a massive increase in renin release occurred resulting in a marked depletion of the remaining renin content of the glomeruli.5. It is concluded that calcium influences renin release by a direct action on the juxtaglomerular cells. The data support the previous suggestion that basal renin release is a function of active, calcium-dependent cell volume regulation - swelling causing an increase in the release; and further suggest that membrane-bound calcium has a direct effect on the cell membrane permeability to renin.6. The results exclude that calcium-stimulated exocytosis is responsible for basal renin release from the juxtaglomerular cells adhering to isolated glomeruli.
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PMID:Studies on the mechanism of renin release from isolated superfused rat glomeruli: effects of calcium, calcium ionophore and lanthanum. 41 32

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